Through-mold openings for dual-sided packaged modules with ball grid arrays

1. A dual-sided module comprising: a packaging substrate having an upper side, a lower side, and a ground plane; a radio-frequency circuit assembly implemented on both of the upper and lower sides of the packaging substrate; an upper overmold implemented on the upper side of the packaging substrate to cover an upper portion of the radio-frequency circuit assembly, the upper overmold defining one or more openings dimensioned to expose one or more contact pads on the upper side of the packaging substrate, the one or more contact pads in electrical connection with the ground plane; a conductive layer configured to cover an upper surface and the one or more openings of the upper overmold to be in electrical contact with the ground plane to thereby provide shielding for a region on the upper side of the packaging substrate; a lower overmold implemented on the lower side of the packaging substrate to cover a lower portion of the radio-frequency circuit assembly, the lower overmold defining a plurality of openings; and a contact feature implemented within each of the openings of the lower overmold to be in contact with the packaging substrate, such that the resulting contact features allow the dual-sided module to be mounted on a circuit board.

2. The dual-sided module of claim 1 wherein the one or more openings defined by the upper overmold includes one or more through-mold vias.

3. The dual-sided module of claim 2 wherein the one or more through-mold vias are configured to provide shielding between the region on the upper side of the packaging substrate and another location.

4. The dual-sided module of claim 3 wherein the other location is a location that is external to the dual-sided module.

5. The dual-sided module of claim 3 wherein the other location is a location that is within the dual-sided module to thereby provide intra-module shielding.

6. The dual-sided module of claim 1 wherein the conductive layer is further configured to cover some or all of side walls defined by the dual-sided module.

7. The dual-sided module of claim 6 wherein the packaging substrate further includes a contact feature electrically connected to the ground plane and exposed on each of the side walls, such that the conductive layer on the corresponding side wall is further electrically connected to the ground plane through the contact feature.

8. The dual-sided module of claim 7 wherein the conductive layer is implemented as a conformal coating of conductive material.

9. The dual-sided module of claim 1 wherein each of the openings defined by the lower overmold includes a through-mold opening dimensioned to receive the corresponding contact feature.

10. The dual-sided module of claim 9 wherein the contact feature includes a solder ball.

11. The dual-sided module of claim 10 wherein the through-mold opening includes a side sectional profile having a maximum width at a lower surface of the lower overmold.

12. The dual-sided module of claim 11 wherein the solder ball is dimensioned and positioned within the through-mold opening such that a lower portion of the solder ball is a level that is approximately the same as the lower surface of the lower overmold.

13. The dual-sided module of claim 12 wherein the solder ball and the corresponding through-mold opening define a ring-shaped space around the lower portion of the solder ball to facilitate the mounting of the dual-sided module on the circuit board.

14. The dual-sided module of claim 1 wherein the contact features are configured as a ball grid array.

15. The dual-sided module of claim 14 wherein each opening defined by the lower overmold is implemented by the lower overmold being formed around the corresponding ball of the ball grid array.

16. The dual-sided module of claim 15 wherein the opening defined by the lower overmold includes a side sectional profile having a maximum width at a lower surface of the lower overmold.

17. The dual-sided module of claim 1 wherein the lower portion of the radio-frequency circuit assembly includes a semiconductor die having a radio-frequency circuit.

18. The dual-sided module of claim 17 wherein the lower overmold is dimensioned to substantially encapsulate the semiconductor die.

19. A method for manufacturing a dual-sided module, the method comprising: providing or forming a packaging substrate having an upper side, a lower side, and a ground plane; implementing a radio-frequency circuit assembly on both of the upper and lower sides of the packaging substrate; forming an upper overmold on the upper side of the packaging substrate to cover an upper portion of the radio-frequency circuit assembly; forming one or more openings through the upper overmold to expose one or more contact pads on the upper side of the packaging substrate, the one or more contact pads in electrical connection with the ground plane; covering an upper surface and the one or more openings of the upper overmold with a conductive layer to be in electrical contact with the ground plane to thereby provide shielding for a region on the upper side of the packaging substrate; forming a lower overmold on the lower side of the packaging substrate to cover a lower portion of the radio-frequency circuit assembly; forming a plurality of openings through the lower overmold to expose corresponding contact pads on the lower side of the packaging substrate; and implementing a contact feature within each of the openings of the lower overmold to be in contact with the corresponding contact pad, such that the resulting contact features allow the dual-sided module to be mounted on a circuit board.

20. A wireless device comprising: a circuit board configured to receive a plurality of components; a transceiver implemented on the circuit board and configured to process radio-frequency signals; and a dual-sided module implemented on the circuit board and in communication with the transceiver, the dual-sided module including a packaging substrate having an upper side, a lower side, and a ground plane, a radio-frequency circuit assembly implemented on both of the upper and lower sides of the packaging substrate, an upper overmold implemented on the upper side of the packaging substrate to cover an upper portion of the radio-frequency circuit assembly, the upper overmold defining one or more openings dimensioned to expose one or more contact pads on the upper side of the packaging substrate, the one or more contact pads in electrical connection with the ground plane, a conductive layer configured to cover an upper surface and the one or more openings of the upper overmold to be in electrical contact with the ground plane to thereby provide shielding for a region on the upper side of the packaging substrate, a lower overmold implemented on the lower side of the packaging substrate to cover a lower portion of the radio-frequency circuit assembly, the lower overmold defining a plurality of openings, and a contact feature implemented within each of the openings of the lower overmold to allow the dual-sided module to be mounted on a circuit board.